Citrate-based dietary alkali supplements available in Germany: an overview

Background Fruits and vegetables are abundant in alkali precursors and effectively reduce the Potential Renal Acid Load (PRAL) from diet. Oral alkali supplements are supposed to exert comparable alkalizing effects on the human body, and have been shown to beneficially affect bone and kidney health. A comparative analysis of the available dietary alkali supplements in Germany was performed, contrasting their potential PRAL-lowering potential. Methods We reviewed the currently available dietary citrate-based alkali supplements sold in Germany with a special focus on their mineral content, their PRAL-lowering potential and other characteristics inherent to each product. Supplements containing either potassium-, calcium- or magnesium citrate or any combination of these organic salts were reviewed. The total alkali load (TAL) was calculated based on the recommended daily dosage (RDD). Results Sixteen supplements with a mean alkali powder content of 220.69 ± 111.02 g were identified. The mean magnesium content per RDD was 239.93 ± 109.16 mg. The mean potassium and median calcium content were 550 ± 325.58 mg and 280 (240) mg, respectively. Median TAL was 1220 (328.75) mg. The PRAL-lowering potential from a single RDD ranged from − 51.65 mEq to -8.32 mEq. Substantial price differences were found, and the mean price of the examined supplements was 16.67 ± 5.77 Euros. The median price for a 1 mEq PRAL-reduction was 3.01 (3.14) cents, and ranged from 0.77 cents to 10.82 cents. Conclusions Noticeable differences between the identified alkali supplements were encountered, warranting an individual and context-specific approach in daily clinical practice. Supplementary Information The online version contains supplementary material available at 10.1186/s40780-024-00342-0.

Plant-based diets were shown to reduce PRAL by incorporating plant foods that include alkali precursors on a regular basis [2,12,13].Apart from a higher content of organic potassium salts and magnesium, plant-based diets lower the intake of phosphorus and preservative phosphates, which have acidifying effects on the human body [2,14,15].
Pharmaceutical companies nowadays sell and advertise for a variety of alkali supplements that are supposed to exert similar alkalizing effects in humans.These supplements are commonly available in German drug stores, do not require a prescription, and are often marketed as "valuable suppliers of alkali precursors" suitable for persons with an inadequate fruit and vegetable intake.As dietary/food supplements, they are "intended to supplement the general diet", and are sold in a dosed form, for instances as powders, capsules, tablets or liquids [16,17].In Germany, dietary/food supplements are not medicinal products and may not have any side-effects [17][18][19].They do not have to be registered with the Federal Office of Consumer Protection and Food Safety (BVL), and are subject to the German Food Supplements Regulation (NemV) [18], which specifies which vitamins and minerals may be added.
Alkali supplements contain magnesium, potassium or calcium either in the form of citrates or carbonates.Several studies suggested differences between those two supplements forms, particularly in the case of calcium [20,21].
While calcium carbonate supplements contain more elemental calcium than calcium citrate supplements, they also require an acidic environment to dissolve, whereas calcium citrate does not.Potential differences in the resorption and in unwanted side effects fostered a controversial debate regarding the most effective calcium supplement form [22].As for magnesium, differences in bioavailability between the different magnesium forms appear minimal [23], yet citrate-based supplements are heavily marketed in Germany for their advertised alkalizing effects on the human body [24,25].They are usually more expensive than carbonate-based supplements [20], and -from our personal clinical experience -less readily available.
The aims of this brief contribution were twofold: (1) to identify and comparably review the currently citratebased dietary alkali supplements sold in Germany, and (2) to contrast the PRAL-lowering potential and other characteristics inherent to each product, focusing on additionally included minerals and vitamins which per se do not alter the PRAL.

Methods
In October 2023, we visited three local pharmacies/drug stores in Freiburg, Germany and inquired about available citrate-based alkali supplements.In addition to that, we reviewed the available alkali supplements at several large online supplement retailers in Germany in early November 2023.Only citrate-based supplements were considered (defined as a citrate content > = 80% of the total alkali content).Supplements which included carbonates were only considered when the carbonate share was < 15% of the total content.To be considered eligible for this comparative review, supplements had to contain either potassium citrate, calcium citrate, magnesium citrate or any combination of these organic salts.
Sodium was added to the PRAL formula in order to increase the precision of our estimates, and because a few examined supplements contained sodium citrate (see results below), which also exerts alkalizing effects.For sodium, the conversion factor "0.041" was extracted from the work of Remer and Manz [26].
Moreover, we also calculated the so-called "total alkali load" (TAL) in mg, which is the sum of the following 4 alkalizing minerals: magnesium, potassium, sodium and calcium.The TAL (in mg) is not to be confused with the PRAL (in mEq), as the TAL reflects a (theoretical) indication of quantity.
In addition to that, we systematically captured the content of other minerals and vitamins included in each alkali supplement.Furthermore, we also reviewed whether the supplement was vegan (defined as not containing any animal-based components) or not, and whether the respective supplement was manufactured in Germany or not.In cases of doubt, we contacted the respective manufacturers by email and -if unsuccessful -by telephone.This information was collected to describe the examined dietary alkali supplements in as much detail as possible, allowing for a balanced and unbiased comparative analysis of the included products.

Statistical analysis
STATA 14 statistical software (StataCorp.2015.Stata Statistical Software: Release 14. College Station, TX: StataCorp LP) was used for the statistical analysis.The Shapiro-Wilk test was used to determine whether the examined data was normally distributed or not.Normally distributed variables were described with their mean ± standard deviation whereas the median and the respective interquartile range were provided for nonnormally distributed variables.Box-Whisker-Plots and (stacked) bar charts were employed to graphically show the results.

Results
A total of n = 16 citrate-based alkali supplements available on the German market were identified (Table 1).The mean alkali powder content of all products was 220.69 ± 111.02 g and ranged from 75 to 500 g.As such, the recommended daily dosage provided by the manufacturers also varied considerably, and ranged from 3 to 32 g per day.
Table 1 displays the potassium, magnesium, sodium and calcium content of the examined products.None of the examined products contained (acidifying) protein and/or phosphorus.As shown in Fig. 1, large differences were found with regard to the mineral content of the examined supplements when comparing daily recommend dosages.
The mean magnesium content per daily recommended dosage was 239.93 ± 109.16 mg.The mean potassium and median calcium content were 550 ± 325.58 mg and 280 (240) mg, respectively.Only n = 5 items (31.25%) contained sodium.The mean amount of sodium contained was 224.4 ± 145.48 mg per daily recommend dosage.
Subsequently, large differences were also found for the TAL (total alkali load) of the examined supplements (Fig. 2).The median TAL was 1220 (328.75)mg and ranged from 480 mg to 2675 mg per daily recommended dosage.
The PRAL-lowering potential from a single RDD ranged from − 51.65 mEq (Bonemis® Basenpulver) to -8.32 mEq (IHLEVITAL Basenpulver BasenDepot).The mean PRAL reduction achieved with a manufacturer-recommended daily dosage was − 25.53 ± 10.30 mEq.Substantial price differences were found with regard to all supplements.The mean price of the examined alkali supplements (not size-standardized) was 16.67 ± 5.77 Euros.For a better comparison, we also calculated the price that a customer pays for each 1 mEq PRAL reduction when purchasing the respective dietary supplement (Fig. 3).The median price for each − 1 mEq was 3.01 (3.14) cents, and ranged from 0.77 cents to 10.82 cents overall.
Only n = 3 dietary supplements did not contain additional vitamins or minerals (18.75%), whereas the remaining n = 13 items (81.25%) were enriched with additional compounds (Table 2).N = 4 supplements (25%) contained silicon and n = 13 items (81.25%) contained zinc in a median dosage of 5 mg per daily recommended dose.Vitamin C was found in n = 2 items (12.5%) and Vitamin D was found in n = 5 supplements (31.25%) in an average dose of 444 ± 350.71 IU.Copper was found in n = 5 of the examined supplements (31.25%) and in an average dose of 0.72 ± 0.26 mg.Chromium and Molybdenum were found in n = 6 items (37.5%), each.N = 2 supplements (12.5%) were not vegan (e.g.without any content of animal origin), whereas the remaining n = 14 items (87.5%) were declared vegan by the respective manufacturers.N = 15 items were produced in Germany; in n = 1 cases the origin was not ascertainable even after contacting the respective manufacturer ("Hübner Basis Balance ® Mineralstoffe Pur").

Discussion
Similar to a more recent US-based study, we reviewed the currently available over-the-counter citrate-based alkali supplements sold in Germany [27].Noticeable differences between the identified supplements were encountered, both with regard to the mineral content as well as with the PRAL-lowering potential of each product.
Prospective clinical studies investigating the effects of such supplements rich in alkaline minerals on the acidbase balance in humans are generally scarce and limited to a handful of trials [28,29].Vormann et al. hypothesised that a latent chronic acidosis subsequent to a high PRAL might contribute to low back pain (LBP), and conducted an open prospective study in n = 82 patients with chronic LBP who received 30 g of a lactose based alkaline multimineral supplement (Basica®) daily for a period of 4 weeks [28].Pain symptoms were assessed with the "Arhus low back pain rating scale" (ARS), and mean ARS scores dropped significantly by 49% (-20 points in total) after 4 weeks of supplementation.König et al. enrolled n = 25 (15 females; 10 males) participants in a study investigating the effects of a multimineral alkali supplement (MMS) on acute and chronic regulation of acid-base balance with the pH of blood, urine and saliva as potential surrogate markers [29].Blood and urinary pH significantly increased in this uncontrolled study.Following a longer supplementation period, both the increase in urinary pH in the morning and in the evening occurred within 24 h.Compared to pH values without the MMS, average pH in urine was more than 10% higher in the morning and approximately 5% higher in the evening.
Moseley et al. suggest that potassium citrates may also improve skeletal health [30].The authors conducted a randomized, double blind and placebo controlled study in 52 elderly women and men with a mean age 65.2 ± 6.2 years.Participants were randomly assigned to one of the following regimens: potassium citrate 60 mmol per day, 90 mmol per day or placebo.Bone turnover markers, net acid excretion and calcium balance were examined at baseline and after a half year.Notably, net acid excretion decreased significantly in both treatment groups when compared to the place.The regular supplement intake resulted in a complete neutralization of the participants' dietary acid load.Favorable findings were also reported by Granchi et al. in a 2018 study, which also employed a potassium citrate supplement in osteopenic women [31].
While large-scale randomized-controlled clinical trials are scarce in this field of study for endpoints unrelated to the human kidneys or bone health, alkali supplements might serve several purposes.From our personal clinical perspective, they might be a helpful tool to decrease PRAL in individuals with an otherwise high dietary acid load, particularly when transitioning towards a more plant-based diet.For a quantitative comparison, Fig. 4 summarizes the PRAL values of some commonly consumed alkalizing fruits and vegetables, based on data obtained from Remer and Manz [26].
A clear reservation must be made that such supplements do not qualify as fruit and vegetable substitutes, and may not replace a healthy diet.Fruits and vegetables contain numerous health promoting substances, including carotenoids, phenolic antioxidants, and anthocyanidin, which all have proven benefits to human health [32].
In this context, a reduction in dietary acid load has been shown to reduce kidney injury in patients with moderately reduced eGFR (glomerular filtration rate) due to hypertensive nephropathy, and fruits and vegetables were comparable to sodium bicarbonate in an investigation by Goraya et al. [33].Notably, newer studies by the same authors highlighted the additional benefits of fruits and vegetables over oral alkali supplementation [34].
Here, we reviewed citrate-based supplements available in Germany and found noticeable differences between the different supplements.Not designed as a head-to-head comparison, we intentionally focused on a descriptive analysis and do not recommend one supplement over another supplement.To the contrary, we encourage the reader to carefully review the unique characteristics of each examined supplement described here, and to consider whether an enrichment with other minerals might be suitable in a particular clinical situation or not.This might be of particular importance because many supplements contained additional nutrients that may not necessarily decrease PRAL but are marketed under different purposes.A common example is zinc, which is added to almost all examined supplements (Table 2), and which -according to the PRAL formula by Remer and Manz -does not alter PRAL.We can only guess why additional nutrients were added to the examined supplements and supposed that they were included for marketing purposes (e.g., because an optimal zinc status is associated with a healthy immune system).Whether necessary is subject to a controversial debate and beyond the scope of this paper.Yet, we deemed it important to systematically capture these nutrients and vitamins added to the examined dietary supplements even when they do not add to their PRAL-lowering potential.
Whether such supplements enriched with additional vitamins and nutrients may be helpful in a particular clinical situation cannot be answered with this crosssectional study design and is beyond the scope of the paper.Likewise, we did not review supplement characteristics such as flavor, taste or consistency.
As such, this short contribution has strengths and weaknesses that warrant a careful consideration.Entirely descriptive, we do not recommend a particular supplement over another supplement, but provide the reader with a list of potentially available citrate-based dietary alkali supplements in Germany.Although we carefully screened multiple online pharmacies and local drug stores to capture as many products as possible, we may not guarantee a complete list of products.In addition, we only considered food/dietary supplements for this analysis; medicinal products and drugs that warrant a prescription from a physician for a specific medical indication were not considered here.Finally, we acknowledge that the primary source of each examined product (e.g.rock (dolomite, limestone), animal (oyster shellfish powder, coral), plant (plant and wood ash) was not ascertainable from the available data.Although many products were declared "vegan" and as such contained no ingredient of animal origin, we may not provide additional details here.
The authors wish to emphasize that they declare no conflicts of interest and no supplement was reviewed more favorably than another one.

Conclusions
Despite some limitations, we provide the first comprehensive overview of the available citrate-based dietary alkali supplements in Germany.The identified noticeable differences between the examined supplements warrant an individual and context-specific approach in daily clinical practice when recommending alkali supplements.

Fig. 1
Fig. 1 Boxplots showing the distribution of the magnesium, calcium, sodium and potassium content of the examined alkali supplements.Magnesium, potassium and calcium and sodium in mg per daily recommended dose.The sum of these 4 minerals reflects the "total alkali load" of the examined items.TAL = Total Alkali Load.Based on n = 16 alkali supplements.Note: only n = 15 of all supplements (93.75%) contained potassium and n = 5 (31.25%) supplements contained sodium

Fig. 2 Fig. 3
Fig. 2 Total alkali load of the examined alkali supplements: an overview.Magnesium, sodium, potassium and calcium in mg per daily recommended dose.The sum of these 4 minerals reflects the "total alkali load" of the examined items.Based on n = 16 alkali supplements

Table 1
Alkaline supplements: recommended daily doses, mineral content and PRAL per RDD.An overview RDD = Recommended Daily Dosage, PRAL = Potential Renal Acid Load.Calcium, potassium, magnesium and sodium in mg/RDD.PRAL in mEq/RDD.